Method of pulse welding and contact tip therefor

ABSTRACT

A contact tip for a welding gun having a central passage for a welding wire moving in a given direction toward a workpiece and receiving a welding signal by contact of the wire with the tip. The passage has an innermost end, an outermost exit end and a length of at least 1.5 inches and an opening in the contact tip intersects the passage so a pressure block slidably mounted in the opening is biased toward the wire by a spring around the contact tip urging the block against the wire. This tip is dimensioned and constructed to perform pulse welding by a relatively ductile aluminum wire.

The present invention relates to a welding gun or torch especiallydesigned for use in pulse welding aluminum wherein an aluminum wirepasses through a contact tip positioned at the exit end of a gun. Suchcontact tips are well known and used consistently in welding guns of thetype where a welding wire is passed through the gun, melted and used forthe welding process. An example of such a contact tip for a welding gunis described in Parmelee U.S. Pat. No. 4,731,518. This patent isincorporated by reference herein to show the technology involved in thepresent invention. One aspect of the present invention involves aceramic sleeve in the central passage of the contact tip to guide thewire through the tip without engaging the electrically conductiveportion of the tip. An example of the use of ceramic to guide a movingwelding wire through a contact tip is illustrated in Kinney U.S. Pat.No. 3,025,387, also incorporated by reference herein as backgroundinformation.

BACKGROUND

In a pulse welding process where a welding wire is directed through thecommonly used contact tip of a welding gun as the tip is subjected to apulsed current signal, it is advantageous to tailor the backgroundcurrent and peak current to create a ball and to propel the ball at aspecific time toward the workpiece. It has been found that the creationof the molten metal ball on the end of the advancing electrode dependson the spacing between the workpiece and the actual contact point of thewire with the contact tip. This distance between the contact point andthe workpiece should remain coordinated with the profile of the pulsecurrent. In this manner, the melting of the ball and the propelling ofthe ball are timed with the actual pulses of the electric current. Suchcoordination maintains the stability of the arc and assures the qualityof the welding process. In other welding processes such as short arc orspray MIG welding, the coordination of the ball and propelling forcewith the waveform profile is not critical. In these processes,conventional tips are used satisfactorily with both iron and aluminum.In some instances, this standard short tip when not used for MIG weldingincluded a ceramic block spring biased into the passageway to engage thewire and force the wire against the passage. Such spring biased ceramicblock in a short tip was only for the purpose of ensuring contact. Thus,its expense was not justified and it was not accepted practice. Thepresent invention relates to a contact tip specially designed for use inpulse welding aluminum wire. The aluminum wire passing through thepassage of the tip engages the surface of the passage somewhere in thelength. This uncertainty as to the contact point of the aluminum wire asit passes through the long contact tip reduces the stability of the arcand affects the quality of the pulsed welding with aluminum wire. Inview of this background, there is a need for creating a contact tipspecially designed for pulse welding with aluminum wire. A contact tipspecially designed for aluminum pulse welding should also overcome therequirement for a special contact tip for each diameter and type ofaluminum wire. In the past, this diameter of the passage in the contacttip had to be especially sized for each aluminum wire. Indeed, thepassage was sized for the heat expansion of the specific aluminum wire.The diameter of the passage was about 0.010 inches larger than thediameter of the aluminum wire being welded. This required a special tipfor each aluminum wire diameter. It has also been found that the contacttip and aluminum wire expand differently according to the process beingperformed and the alloy of the aluminum. Thus, the tip had to bespecially designed not only for the diameter of the aluminum wire, butalso for the expansion caused by heating associated to the weldingprocess. When using aluminum wire, the welding tip had to be speciallyand accurately controlled as to the diameter of the passage for bothpulse welding by aluminum wire and regular MIG welding by aluminum wire.Consequently, there is a need for a tip to be used in aluminum,especially for aluminum pulse welding which need not be accuratelydimensioned and still present a specific, fixed contact point. Thisfeature increases the arc stability. Prior contact tip disadvantages forthe pulse welding process have been overcome by the present invention.

THE INVENTION

The present invention relates to a new method of pulse welding withaluminum wire and also a novel contact tip especially for aluminum wire,primarily for pulse spray welding of aluminum but also for conventionalMIG welding of aluminum.

By implementing the inventive method of aluminum pulse welding, themelting of the aluminum and the propelling of the aluminum toward theworkpiece is consistently synchronized with the pulsed current used inthe process. This consistency is accomplished in a long contact tipwhere the aluminum wire is positively pushed against the contact tip ata fixed location spaced from the exit end of the contact tip. Thedistance between the contact point and the workpiece remains constantduring the pulse welding process. By using this method, arc stability ismaintained and the melting of the ball on the end of the aluminum wireis coordinated and synchronized with the actual current pulses of thewelding process. In accordance with another aspect of the invention, thenovel contact tip for use with aluminum allows the diameter of thepassage in the contact tip to be enlarged so that the tip willaccommodate aluminum wire having a variety of diameters. In the past,the diameter of the control passage was very close to the diameter ofthe wire and also was adjusted to compensate for expansion by heatduring the welding process. Using the present invention, the diameter ofthe passage is such that aluminum wire between 0.035 inches and 0.062inches can be processed by a single contact tip. Indeed, one embodimentof the present tip has a diameter of about 0.080 inches and can still beused for aluminum welding wire as small as 0.035 inches. This speciallydesigned contact tip is oversized and accommodates the normal range ofwire diameters used in aluminum welding, as well as, being especiallyadvantageous for aluminum pulsed spray welding. The novel contact tiphas a length greater than 1.5 inches and has a spring biased pressureblock carried by the tip and forced inwardly against the wire at aposition adjacent the upper portion of the contact tip. To isolate thecontact point between the moving wire and the contact tip at thepressure block or pressure element, one embodiment of the inventionutilizes a raised pressure pad located opposite the element or blockthat is forced against the wire. This causes a pinching action at aspecific location in the long contact tip to assure that the weldingprocess using aluminum wire has a consistent distance between thecontact point in the tip and the workpiece. Another aspect of theinvention is the shape of the pressure block, which block is springbiased against the wire passing through an opening in the contact tip.This shape includes two spaced, parallel edges, each of which has atapered upper end and a tapered lower end. Consequently, the pressureblock forced against the wire has no special orientation. Irrespectiveof the position of the block in the opening into the passage, there isstill a lead-in tapered portion, so that the aluminum wire can be pushedpast the spring biased pressure block when first stringing the aluminumwire in the welding gun.

In accordance with the present invention, there is provided a method ofpulse welding with an aluminum welding wire comprising moving thewelding wire toward a workpiece and through a central passage of acontact tip, where the contact tip has an innermost end, an outermostwire exit end and a length of over 1.5 inches. The method involvespositively urging the wire against the contact tip at a fixed positioncloser to the innermost end of the tip than to the exit end of the tipand passing a pulse weld signal between the contact tip and thus thewelding wire and the workpiece to melt the wire by the electrical signaland deposit the molten metal wire onto the workpiece. This is a standardpulsed spray welding process using a fixed contact point instead of amovable contact point.

In accordance with an aspect of the invention, the urging of the wire isby a spring biased insulator element or block forced through an openingin the contact tip and against the wire in a manner to force the wireagainst the surface of the passage at a fixed location in the contacttip. The contact tip has a length in the general range of 2-3 inches. Inaccordance with an aspect of the invention, a shielding gas is passedtoward the workpiece and around the aluminum wire as it is being meltedand deposited onto the workpiece.

Still a further aspect of the present invention is the provision of anovel contact tip for a welding gun. The tip is especially applicable toaluminum and is primarily for pulse welding. The tip has a centralpassage for welding wire moving in a given direction toward theworkpiece and receives a welding signal by the contact of the wire withthe tip. The passage has an innermost end, an outermost exit end and alength of at least 1.5 inches. An opening in the side of the contact tipintersects the passage and is generally perpendicular to the givendirection of movement of the wire. A pressure element or block slidablymounted in the opening moves toward and against the wire so that aspring around the contact tip can engage the element or block to urgethe element against the wire moving through the passage of the tip. Inthe preferred embodiment, the spring is a circular sheet springsurrounding the tip and fitting in an annular groove machined in thecontact tip and intersecting the opening for the movable pressureelement. The groove includes a key extending between the distal ends ofthe spring surrounding the contact tip to orient the spring on the tipand prevent its rotation. The pressure element is a block of insulatingmaterial which, in the preferred embodiment, has a special shape withtwo opposite, parallel edges, each of which has tapered ends so thatorientation of the pressure block is not important.

In accordance with another aspect of the present invention, the passagehas a raised pressure pad located opposite the opening for the pressureblock, so the pressure block and pad pinches the wire at a fixedlocation adjacent the upper portion of the contact tip for uniformpulsed welding by aluminum wire. The diameter of the passage isgenerally about 0.068 inches in diameter to accommodate all commonlyused sizes of aluminum wire. In the broadest sense, the diameter of thepassage is about 0.080 so that there is a clearance which can be filledwith a ceramic sleeve to guide the aluminum wire through the contacttip. In one embodiment using a ceramic sleeve, there is no pressuremechanism for the wire, the wire merely engages the contact tip at alower portion of the passage so that the ceramic sleeve prevents contactat any place, except at the outlet of the contact tip. The contact pointis at the end of the passage since there is no spring that can beaffected by excessive heat. This particular type of contact tip is analternative of the present invention and is preferred from an economicperspective but not from a wide range of application perspectives. Thistip uses the broadest aspect of the invention to fix the contact pointof aluminum wire moving through a long tip.

The primary object of the present invention is the provision of a methodfor pulse welding with aluminum wire, which method provides arcstability and consistently coordinates the melting of the aluminum wireand the deposition of the molten metal with the actual profile of thecurrent pulses used in the pulse welding process.

Another object of the present invention is the provision of a novelcontact tip designed for use in the method defined above.

Yet another object of the present invention is the provision of acontact tip, as defined above, which contact tip has a spring biasedpressure block forcing the wire against the surface of the passage at afixed location adjacent the upper portion of the contact tip. This tipis used in a process where the fixed location is essential to theoperation of the process. This is not the case when using the steelwire.

Yet a further object of the present invention is the provision of anovel contact tip, as defined above, which contact tip has an oversizedpassage to accommodate a majority of the wire sizes used in aluminumpulse welding. This novel tip need not be closely coordinated with agiven wire and designed for a certain wire diameter.

These and other objects and advantages will become apparent from thefollowing description taken together with the accompanying drawings.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a graph of a pulse welding process coordinated with thecharacteristics of the electrode at different times in the weldingprocess;

FIG. 2 is a partially cross-sectioned view of the welding gun of thetype used in performing the novel welding method and using the novelcontact tip of the invention;

FIG. 3 is a partially cross-sectioned view of the welding gunillustrating the preferred embodiment of the present invention;

FIG. 4 is an enlarged cross-sectional view of the preferred embodimentof the invention shown in more detail in FIG. 3;

FIG. 5 is a cross-sectional view of the contact tip used for aluminumwelding in the prior art;

FIG. 6 is a cross-sectional view showing characteristics of a tipconstructed in accordance with the preferred embodiment of the presentinvention;

FIG. 7 is a cross-sectional view similar to FIG. 6 illustrating amodification of the preferred embodiment of the present invention;

FIG. 8 is a cross-sectional view similar to FIG. 7 illustrating still afurther addition to the modified embodiment of the present invention;

FIG. 9 is a cross-sectional view of contact tip used for aluminum havinga broad feature of the preferred embodiment of the invention;

FIG. 10 is a perspective view of the symmetrical ceramic pressure blockused in accordance with the preferred embodiment of the presentinvention; and,

FIG. 11 is an enlarged cross-sectional view taken generally along line11-11 of FIG. 4.

PREFERRED EMBODIMENT

FIG. 1 represents a pulse weld process for aluminum wire W using astandard signal 10 having peak current portions 12 and backgroundcurrent portions 14. Each of these portions is formed by a plurality ofcurrent pulses 16 in accordance with standard waveform technologypioneered by The Lincoln Electric Company of Cleveland, Ohio. At time orpoint 20, the end of wire W is liquified to form ball B. At time orpoint 22, ball B is released from the advancing wire by the increasingcurrent and propelled toward workpiece WP. From point 20 to 22, a newball is formed. This process is repeated in a pulse welding process. Foruniformity and synchronization with the pulses, the contact point ofwire W as it passes through a contact tip or sleeve in the welding gunmust be maintained somewhat constant. This is very difficult. It is notpushed against either side of the contact tip passage as it movesthrough the passage. A prior art contact tip is shown in FIG. 5. Tip 30is long to accommodate aluminum wire and has a threaded top 32 andcentral passage 34, with a conical lead-in 36. The length of passage 34is greater than 1.5 inches and preferably in the general range of 2-3inches. Passage 34 has a diameter that is about 0.005-0.010 inchesgreater than the diameter of wire W. Thus, each contact tip 30 isdesigned for a specific aluminum wire. Wire W and contact tip 30 have adifferent expansion coefficient, according to the welding process;therefore, the diameter of passage 34 becomes quite critical matchingspecific wire diameters and expansion tolerances. When using long tip30, the wire can contact the inner surface of passage 34 at variouslocations illustrated as a₁, a₂, a₃, a₄ and a₅. Thus, when welding withaluminum wire W, especially in the very critical pulse welding process,the welding process changes drastically according to the spacing of thecontact point from the workpiece W. The distance between the actualcontact point and the workpiece constitutes the heated portion of wire Wplus the length of arc A which should be held generally constant. A longlength for passage 34 is required to assure that there is at least apoint of good contact between the moving wire and contact tip 30.Contact tip 30 is used in pulse welding of aluminum together with othertypes of welding processes using a wire W formed of aluminum. Thepresent invention is designed specifically for aluminum wire W andovercomes the disadvantages of contact tip 30 now used for weldingprocesses involving aluminum wire.

FIG. 2 illustrates a welding gun G for use of the present invention.Flexible conduit 40 is joined by connector 42 to the wire feedingmechanism illustrated as having feed rolls 50, 52 with an inlet guide 54and an outlet guide 56 in a supporting fixed housing 58. This housingcould be assembled onto a robot, automatic or semiautomatic hand heldtorch. Gun G includes an outer housing 60 with an inwardly taperedportion 62 and an insulating sleeve 64 as shown in FIG. 3. Mounting head70 is a standard component and includes a center gas and wire passage 72and a threaded receiver 74. An outer cylindrical surface 76 defines anannular shielding gas passage 80 so that openings 82 direct pressurizedshielding gas S through the openings and through annular passage 80 toshield arc A during the welding process. The electric signal for thepulse welding process or other welding process is introduced through anouter power sleeve or coupling 84 to mounting head 70 for use in thewelding process.

In accordance with the present invention, a novel contact tip isdesigned especially for pulse welding of aluminum wire W. Novel tip 100is best shown in FIGS. 3 and 4 as including a central passage 102 havingan outer surface 104 surrounding wire W as the wire passes through gun Gand through contact tip 100. Tip 100 includes an uppermost end 106 and alowermost wire exit end 108 with an upper conical inlet 110 on threadedtop 112. As so far described, contact tip 100 is a standard long tip ofthe type used for aluminum wire W. In accordance with the invention, aperpendicular rectangular opening 120 receives a matching rectangularpressure block 130 formed from an insulating material, such as ceramicand having an innermost pressure friction edge 132 and an outer pressureedge 134. Block 130 is generally symmetrical with two parallel edgesthat are identical so block 130 can fit into opening 120 with eitheredge facing inwardly toward passage 102. A circular groove 140 ismachined in the outer surface of contact tip 100 to receive C-shapedsheet metal spring 150 mounted in groove 140 to force rectangularpressure block 130 inwardly against wire W. In this manner, the ductilewire is forced against surface 104 at a specific point opposite block130 and closer to the uppermost end 106 than to the lowermost end 108.This spacing is to isolate springs 150 from the heat of arc A. As wire Wmoves through passage 102, it is forced against surface 104 by theinwardly urged block 130 so edge 132 forces the wire against the surfaceof the passage. Thus, there is a fixed distance between (a) the contactpoint of wire W with tip 100 and (b) workpiece WP. This provides arcstability and coordinates the molten metal shown in FIG. 1 with thepulses of signal 10 to optimize the welding process and preventvariations as explained in the discussion of FIG. 5. The advantage ofthe present invention is illustrated schematically in FIG. 6 wherein thelength z of the contact tip is generally in the range of 1.5 inches andpreferably in the range of 2-3 inches. By using the present invention,diameter x of passage 102 can be substantially greater than diameter yof wire W. In practice, x is preferably 0.068 inches so that thediameter is oversized and not determined by the diameter of wire W,which diameter can be as small as about 0.035 inches. By making passage102 oversized, contact tip 100 need not be specifically dimensioned foruse with a single wire, but can be used with a number of different sizedaluminum wires. Irrespective of the size of the wire, the wire connectstip 100 at point a_(F) which is fixed to give a consistent pulse weldingoperation or MIG welding operation for aluminum. The diameter of wire Wcan vary noticeably. This is a great advantage in the welding ofaluminum. The inventory of tips for different wires is drasticallyreduced at a substantial saving.

Symmetrical ceramic pressure block 130 is best shown in FIG. 10 asincluding a rectangular member formed of ceramic with a width m, heightn and length o. As illustrated, the height and length are the same andthe width is about 25% of the height. Consequently, opening 120 isrectangular with a width of substantially dimension m and a height ofsubstantially dimension n. According to the orientation of block 130 inopening 120 either edge 132 or edge 134 engages wire W and forces itagainst surface 104 at a positive contact position opposite the pressureedge. Each edge has a tapered end 160, 162, 164 or 166. In this manner,irrespective of the orientation of block 130 in opening 120, wire Wfirst engages a tapered end to cam block 130 outwardly against spring150 as the wire is threaded through gun G. An advantage of the presentinvention is the interchangeable shape of generally symmetrical block130.

FIGS. 7 and 8 show a modified contact tip 100′ generally the same as tip100, except for a raised pressure pad 200 generally opposite to andmatching the profile of edge 132. The pad is elongated with a width m.An upper tapered end 202 allows threading of wire W through tip 100′ atthe start of the welding process. Again, the diameter of opening 102 isoversized for wire W so that one tip fits generally all aluminum wires.If the wire is overly flexible and moveable in passage 102 belowpressure block 130, a thin ceramic sleeve 210 can be inserted into thepassage to abut against the lower end of pad 200, as shown in FIG. 8.This ceramic sleeve has an inner opening 212 generally matching thediameter of wire W. The gap is in the range of 0.005-0.010 inches. Whenusing this insulation sleeve, a different sleeve is inserted into thesame contact tip 100′ to match the diameter of the wire. The only changein the tip is the selection of the ceramic guide sleeve 210 toaccommodate a given wire. Thus, all the screw machine operations andboring of opening 102 is the same for all the aluminum wire diameters. Aspecial sleeve is used for taking up the slack and preventing movementof wire W below block 130, especially for smaller diameter aluminumwires. The features of FIGS. 7 and 8 are improvements of the generalinvention as previously described in connection with FIGS. 2-4 and FIG.10. Another improvement in the invention is illustrated in FIG. 11 whichis a cross-sectioned view of FIG. 4. Spring 150 in groove 140 surroundsthe tip and pushes pressure block 130 inwardly against wire W. TheC-shaped spring has distal ends 150 a, 150 b defining a gap 220. Byproviding an elongated key boss 222 in groove 140 at a position oppositeto opening 120, gap 220 is oriented with respect to boss 222. Spring 150is held in the proper position around tip 100 or tip 100′ in groove 140.This improvement in the invention is illustrated in FIGS. 4 and 11.

An alternative contact tip 300 for aluminum wire W is illustrated inFIG. 9 as including an uppermost threaded end 302 and a lowermost exitend 304 with a large diameter passage 310 terminating in a lower rim 312defining a smaller opening 314 generally matching the diameter of wireW. To assure that the contact point is only in the relatively short areap, passage 310 is provided with a ceramic insulator sleeve 320 with atapered upper end 322. Tip 300 provides a relatively precise contactpoint for wire W to allow a consistent aluminum welding process. Thiscontact can be adjacent exit end 304 since it does not involve a metalspring 150 as used in the basic implementation of the present invention.This tip is a broad embodiment of the invention and does not involve theuse of a pressure block; however, it provides a fixed point forelectrical contact in the tip. This aspect of the invention uses a longcontact tip with an element at a given location of passage 310 to assurea specific, fixed point of electrical contact. Rim 312 defines the fixedpoint. In the preferred embodiment, block 130 defines the specificpoint. Other modifications of this broad concept for aluminum pulsewelding come within the invention.

1. A contact tip for a welding gun, said tip having a central passagefor a welding wire moving in a given direction toward a workpiece andreceiving a welding signal by contact of said wire with said tip, saidpassage having an innermost end, an outermost exit end and a length ofat least 1.5 inches; an opening in said contact tip intersecting saidpassage and generally perpendicular to said given direction; a pressureelement slidably mounted in said opening for movement toward and againstsaid wire; and a circular, sheet metal spring surrounding said contacttip and engaging said element to urge said element against said wiremoving through said passage, said sheet metal spring has two distal endsspaced from each other and said tip includes a circular grooveintersecting said opening for holding said spring around said tip, saidcircular groove including a key structure extending parallel to saidgiven direction and between said distal ends of said spring to preventrotation of said spring in said groove.
 2. A contact tip as defined inclaim 1 wherein said element is a pressure block of insulating material.3. A contact tip as defined in claim 1 wherein said block has edgeextending into said passage and with a tapered upper end of said edgeand a tapered lower end of said edge.
 4. A contact tip as defined inclaim 3 wherein said block has a first edge extending into said passageand a second edge facing outwardly from said passage, with a taperedupper end on both of said edges and a tapered lower edge on both of saidedges.
 5. A contact tip as defined in claim 2 wherein said block has afirst edge extending into said passage and a second edge facingoutwardly from said passage, with a tapered upper end on both of saidedges and a tapered lower edge on both of said edges.
 6. A contact tipas defined in claim 5 wherein said passage is over sized for thediameter of the wire to move through said passage.
 7. A contact tip asdefined in claim 6 wherein said over size is at least 0.005 inchesgreater than the diameter of said wire.
 8. A contact tip as defined inclaim 7 wherein said passage has a raised pressure pad located oppositesaid opening.
 9. A contact tip as defined in claim 5 wherein saidpassage is over sized for the diameters of various wires to move throughsaid passage.
 10. A contact tip as defined in claim 2 wherein saidpassage is over sized for the diameters of various wires to move throughsaid passage.
 11. A contact tip as defined in claim 2 wherein saidelement is a ceramic pressure block.
 12. A contact tip as defined inclaim 1 wherein said passage is over sized for the diameter of the wireto move through said passage.
 13. A contact tip as defined in claim 12wherein said over size is at least 0.005 inches greater than thediameter of said wire.
 14. A contact tip as defined in claim 13 whereinsaid passage is over sized for the diameters of various wires to movethrough said passage.
 15. A contact tip as defined in claim 12 whereinsaid opening is closer to said innermost end than outermost exit end ofsaid passage.
 16. A contact tip as defined in claim 1 wherein saidpassage is over sized for the diameters of various wires to move throughsaid passage
 17. A contact tip as defined in claim 16 wherein saidelement is a ceramic pressure block.
 18. A contact tip as defined inclaim 17 wherein said opening is closer to said innermost end thanoutermost exit end of said passage.
 19. A contact tip as defined inclaim 16 wherein said opening is closer to said innermost end thanoutermost exit end of said passage.
 20. A contact tip as defined inclaim 1 wherein said tip has a length greater than 1.0 inch.
 21. Acontact tip as defined in claim 20 wherein said opening is closer tosaid innermost end than outermost exit end of said passage.
 22. Acontact tip as defined in claim 1 wherein said opening is closer to saidinnermost end than outermost exit end of said passage.
 23. A contact tipfor a welding gun, said tip having a central passage for a welding wiremoving in a given direction toward a workpiece and receiving a weldingsignal by contact of said wire with said tip, said passage having aninnermost end, an outermost end and a length; an opening in said contacttip intersecting said passage and generally perpendicular to said givendirection; a pressure element slidably mounted in said opening fortoward and against said wire; a circular, sheet metal spring surroundingsaid contact tip and engaging said element to urge said element againstsaid wire moving through said passage; and said passage having a raisedpressure pad located opposite said opening, wherein said sheet metalspring has two distal ends spaced from each other and said tip includesa circular groove intersecting said opening for holding said springaround said tip, said circular groove including a key structureextending parallel to said given direction and between said distal endsof said spring to prevent rotation of said spring in said groove.
 24. Acontact tip as defined in claim 23 wherein said passage has an oversizedportion between said pad and said exit end.
 25. A contact tip as definedin claim 24 wherein said oversized portion supports an insulating sleevewith a central passage for receiving said welding wire as it movesthrough said tip.
 26. A contact tip as defined in claim 25 wherein saidtip has a length greater than 1.0 inch.
 27. A contact tip as defined inclaim 24 wherein said tip has a length greater than 1.0 inch.
 28. Acontact tip as defined in claim 23 wherein said tip has a length greaterthan 1.0 inch.